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CHAPTER 2
Modeling
Distributions of Data
2.2
Density Curves and
Normal Distributions
The Practice of Statistics, 5th Edition
Starnes, Tabor, Yates, Moore
Bedford Freeman Worth Publishers
Density Curves and Normal Distributions
Learning Objectives
After this section, you should be able to:
 ESTIMATE the relative locations of the median and mean on a
density curve.
 ESTIMATE areas (proportions of values) in a Normal distribution.
 FIND the proportion of z-values in a specified interval, or a z-score
from a percentile in the standard Normal distribution.
 FIND the proportion of values in a specified interval, or the value
that corresponds to a given percentile in any Normal distribution.
 DETERMINE whether a distribution of data is approximately Normal
from graphical and numerical evidence.
The Practice of Statistics, 5th Edition
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Exploring Quantitative Data
In Chapter 1, we developed a kit of graphical and numerical tools for
describing distributions. Now, we’ll add one more step to the strategy.
Exploring Quantitative Data
1.
2.
3.
4.
Always plot your data: make a graph, usually a dotplot, stemplot,
or histogram.
Look for the overall pattern (shape, center, and spread) and for
striking departures such as outliers.
Calculate a numerical summary to briefly describe center and
spread.
Sometimes the overall pattern of a large number of
observations is so regular that we can describe it by a
smooth curve.
The Practice of Statistics, 5th Edition
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Density Curves
A density curve is a curve that
• is always on or above the horizontal axis, and
• has area exactly 1 underneath it.
A density curve describes the overall pattern of a distribution.
The area under the curve and above any interval of values on
the horizontal axis is the proportion of all observations that fall in
that interval.
Example
The overall pattern of this histogram of the scores
of all 947 seventh-grade students in Gary, Indiana,
on the vocabulary part of the Iowa Test of Basic
Skills (ITBS) can be described by a smooth curve
drawn through the tops of the bars.
The Practice of Statistics, 5th Edition
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Describing Density Curves
Our measures of center and spread apply to density curves as well as
to actual sets of observations.
Distinguishing the Median and Mean of a Density Curve
The median of a density curve is the equal-areas point, the point that
divides the area under the curve in half.
The mean of a density curve is the balance point, at which the curve
would balance if made of solid material.
The median and the mean are the same for a symmetric density
curve. They both lie at the center of the curve. The mean of a skewed
curve is pulled away from the median in the direction of the long tail.
The Practice of Statistics, 5th Edition
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Describing Density Curves
• A density curve is an idealized description of a distribution of data.
• We distinguish between the mean and standard deviation of the
density curve and the mean and standard deviation computed from
the actual observations.
• The usual notation for the mean of a density curve is µ (the Greek
letter mu). We write the standard deviation of a density curve as σ
(the Greek letter sigma).
The Practice of Statistics, 5th Edition
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Normal Distributions
One particularly important class of density curves are the Normal
curves, which describe Normal distributions.
• All Normal curves have the same shape: symmetric, singlepeaked, and bell-shaped
• Any specific Normal curve is completely described by giving its
mean µ and its standard deviation σ.
The Practice of Statistics, 5th Edition
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Normal Distributions
A Normal distribution is described by a Normal density curve. Any
particular Normal distribution is completely specified by two numbers:
its mean µ and standard deviation σ.
• The mean of a Normal distribution is the center of the symmetric
Normal curve.
• The standard deviation is the distance from the center to the
change-of-curvature points on either side.
• We abbreviate the Normal distribution with mean µ and standard
deviation σ as N(µ,σ).
Why are the Normal distributions important in statistics?
•
Normal distributions are good descriptions for some distributions of real
data.
•
Normal distributions are good approximations of the results of many
kinds of chance outcomes.
•
Many statistical inference procedures are based on Normal distributions.
The Practice of Statistics, 5th Edition
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The 68-95-99.7 Rule
Although there are many Normal curves, they all have properties in
common.
The 68-95-99.7 Rule
In the Normal distribution with mean µ and standard deviation σ:
• Approximately 68% of the observations fall within σ of µ.
• Approximately 95% of the observations fall within 2σ of µ.
• Approximately 99.7% of the observations fall within 3σ of µ.
The Practice of Statistics, 5th Edition
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The Standard Normal Distribution
All Normal distributions are the same if we measure in units of size σ
from the mean µ as center.
The standard Normal distribution is the Normal distribution with mean 0 and
standard deviation 1.
If a variable x has any Normal distribution N(µ,σ) with mean µ and standard
deviation σ, then the standardized variable
z=
x -m
s
has the standard Normal distribution, N(0,1).
The Practice of Statistics, 5th Edition
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The Standard Normal Table
The standard Normal Table (Table A) is a table of areas under the
standard Normal curve. The table entry for each value z is the area
under the curve to the left of z.
Suppose we want to find the proportion
of observations from the standard Normal
distribution that are less than 0.81.
We can use Table A:
Z
.00
.01
.02
0.7
.7580
.7611
.7642
0.8
.7881
.7910
.7939
0.9
.8159
.8186
.8212
The Practice of Statistics, 5th Edition
P(z < 0.81) = .7910
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Normal Distribution Calculations
We can answer a question about areas in any Normal distribution by
standardizing and using Table A or by using technology.
How To Find Areas In Any Normal Distribution
Step 1: State the distribution and the values of interest.
Draw a Normal curve with the area of interest shaded
and the mean, standard deviation, and boundary
value(s) clearly identified.
Step 2: Perform calculations—show your work! Do one of
the following: (i) Compute a z-score for each boundary
value and use Table A or technology to find the desired
area under the standard Normal curve; or (ii) use the
normalcdf command and label each of the inputs.
Step 3: Answer the question.
The Practice of Statistics, 5th Edition
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Working Backwards: Normal Distribution Calculations
Sometimes, we may want to find the observed value that corresponds
to a given percentile. There are again three steps.
How To Find Values From Areas In Any Normal Distribution
Step 1: State the distribution and the values of interest.
Draw a Normal curve with the area of interest shaded
and the mean, standard deviation, and unknown
boundary value clearly identified.
Step 2: Perform calculations—show your work! Do one of
the following: (i) Use Table A or technology to find the
value of z with the indicated area under the standard
Normal curve, then “unstandardize” to transform back
to the original distribution; or (ii) Use the invNorm
command and label each of the inputs.
Step 3: Answer the question.
The Practice of Statistics, 5th Edition
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Assessing Normality
The Normal distributions provide good models for some distributions of
real data.
Many statistical inference procedures are based on the assumption that
the population is approximately Normally distributed.
A Normal probability plot provides a good assessment of whether a
data set follows a Normal distribution.
Interpreting Normal Probability Plots
If the points on a Normal probability plot lie close to a straight
line, the plot indicates that the data are Normal.
Systematic deviations from a straight line indicate a non-Normal
distribution.
Outliers appear as points that are far away from the overall
pattern of the plot.
The Practice of Statistics, 5th Edition
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Density Curves and Normal Distributions
Section Summary
In this section, we learned how to…
 ESTIMATE the relative locations of the median and mean on a
density curve.
 ESTIMATE areas (proportions of values) in a Normal distribution.
 FIND the proportion of z-values in a specified interval, or a z-score
from a percentile in the standard Normal distribution.
 FIND the proportion of values in a specified interval, or the value that
corresponds to a given percentile in any Normal distribution.
 DETERMINE whether a distribution of data is approximately Normal
from graphical and numerical evidence.
The Practice of Statistics, 5th Edition
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